Multi-capacity combinatorial ordering GA in application to cloud resources allocation and efficient virtual machines consolidation

Date published

2016-11-02

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Elsevier

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Article

ISSN

0167-739X

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Citation

Huda Hallawi, Jörn Mehnen, Hongmei He, Multi-capacity combinatorial ordering GA in application to cloud resources allocation and efficient virtual machines consolidation, Future Generation Computer Systems, Volume 69, April 2017, pp. 1–10

Abstract

This paper describes a novel approach making use of genetic algorithms to find optimal solutions for multi-dimensional vector bin packing problems with the goal to improve cloud resource allocation and Virtual Machines (VMs) consolidation. Two algorithms, namely Combinatorial Ordering First-Fit Genetic Algorithm (COFFGA) and Combinatorial Ordering Next Fit Genetic Algorithm (CONFGA) have been developed for that and combined. The proposed hybrid algorithm targets to minimise the total number of running servers and resources wastage per server. The solutions obtained by the new algorithms are compared with latest solutions from literature. The results show that the proposed algorithm COFFGA outperforms other previous multi-dimension vector bin packing heuristics such as Permutation Pack (PP), First Fit (FF) and First Fit Decreasing (FFD) by 4%, 34%, and 39%, respectively. It also achieved better performance than the existing genetic algorithm for multi-capacity resources virtual machine consolidation (RGGA) in terms of performance and robustness. A thorough explanation for the improved performance of the newly proposed algorithm is given.

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Github

Keywords

Cloud resources allocation, Cloud resources provisioning, Virtual machines consolidation, Vector bin packing, Genetic algorithm

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Attribution-NonCommercial-NoDerivatives 3.0 International

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